US20220287443A1 - Vacuum Pouch for Athletics - Google Patents

Abstract

A pouch or pocket may act as a container and may be used to securely hold objects (e.g., cell phone, keys, wallet, etc.) during athletic activity (e.g., running). The pouch may be a standalone item or integrally formed as part of other items. The pouch may hold the object to be stored in place within the pouch or pocket. The pouch may provide some cushioning or impact force attenuation to protect the object being held within the pouch or pocket. Additionally, the pouch may be attached to a garment, such as running clothes. The pouch includes an outer envelope sealable by a closure and a one-way valve with foam layers located inside the pouch. After the object is placed in the pouch, the closure is closed, and the air within the pouch is expelled via the one-way valve by compressing the foam layers from the outside.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS
• This application is a continuation of U.S. patent application Ser. No. 17/166,481, filed Feb. 3, 2021, which is a continuation of U.S. patent application Ser. No. 16/401,435, filed May 2, 2019 and issued as U.S. Pat. No. 10,939,745 on Mar. 9, 2021, which claims priority to U.S. Provisional Patent Application No. 62/667,098, filed May 4, 2018, entitled Vacuum Pouch for Athletics, which are incorporated herein by reference in its entirety and made a part hereof.
BACKGROUND
• When working out or running, people sometimes have objects, such as keys, cell phone, or wallet that they need to store or hold. Generally, a pouch or pocket is desired that may be used to securely hold these objects when working out (e.g., running).
• SUMMARY
• The present invention generally provides a device or apparatus that provides a vacuum pouch for athletics.
• According to one embodiment, a pouch for securely holding objects during athletic activity includes an outer envelope, one or more foam components located within the outer envelope, a resealable opening located on an exterior of the outer envelope, and a one-way valve in communication with the interior chamber. The outer envelope may define an interior chamber that has a first major surface and a second major surface. The one or more foam components may include a first foam layer adjacent to the first major surface of the outer envelope and a second foam layer adjacent to the second major surface of the outer envelope. The resealable opening may provide an opening for an object to be inserted into the interior chamber. Further, once the object is inserted into the pouch, the resealable opening is closed and sealed and the one or more foam components are compressed. The compression of the one or more foam components expels the air from the interior chamber of the outer envelope via the one-way valve.
• According to another embodiment, a garment may include a garment base material that includes one or more fabric components and a pouch releasably or fixedly attached to the garment base material. The pouch may be utilized for securely holding objects during athletic activity. The pouch may include an outer envelope, one or more foam components located within the outer envelope, a resealable opening located on an exterior of the outer envelope, and a one-way valve in communication with the interior chamber. The outer envelope may define an interior chamber that has a first major surface and a second major surface. The one or more foam components may include a first foam layer adjacent to the first major surface of the outer envelope and a second foam layer adjacent to the second major surface of the outer envelope. The resealable opening may provide an opening for an object to be inserted into the interior chamber. Further, once the object is inserted into the pouch, the resealable opening is closed and sealed and the one or more foam components are compressed. The compression of the one or more foam components expels the air from the interior chamber of the outer envelope via the one-way valve.
• According to yet another embodiment, a pouch for securely holding objects during athletic activity may include an outer envelope, one or more foam components located within the outer envelope, a resealable opening located on an exterior of the outer envelope, a plate located between the outer envelope and the one or more foam components, and a one-way valve in communication with the interior chamber. The outer envelope may define an interior chamber that has a first major surface and a second major surface. The one or more foam components may include a first foam layer adjacent to the first major surface of the outer envelope and a second foam layer adjacent to the second major surface of the outer envelope. The resealable opening may provide an opening for an object to be inserted into the interior chamber. The resealable opening may include a closure to seal the resealable opening. The closure may include one of the following closures: a zippered closure, a pressure-resealable closure, or a sliding device closure. The plate may serve as a moderator to more evenly spread a compression force over the foam components to better expel the air and more evenly compress the object within the pouch. Further, once the object is inserted into the pouch, the resealable opening is closed and sealed and the one or more foam components are compressed. The compression of the one or more foam components expels the air from the interior chamber of the outer envelope via the one-way valve. The pouch may also include a set of straps that wrap around the outer envelope, wherein when pulling on a free end of the set of straps, the foam components compress and the air is expelled from the interior chamber of the outer envelope via the one-way valve. The pouch may also include a set of cables coupled to a plurality of rigid bands that wrap around the outer envelope, wherein when pulling on a free end of the set of cables, the rigid bands tighten around the outer envelope compressing the foam components and the air is expelled from the interior chamber of the outer envelope via the one-way valve.
• Other features and advantages of the invention will be apparent from the following specification taken in conjunction with the following drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
• The present invention is illustrated by way of example and not limited in the accompanying figures in which like reference numerals indicate similar elements and in which:
• FIG. 1 depicts a top view of an example vacuum pouch, according to one or more aspects described herein.
• FIG. 2 depicts a cross-section view of an example vacuum pouch in an inflated configuration, according to one or more aspects described herein.
• FIG. 3 depicts a cross-section view of the example vacuum pouch fromFIG. 2 in a deflated configuration, according to one or more aspects described herein.
• FIG. 4 depicts a cross-section view of another example vacuum pouch in an inflated configuration, according to one or more aspects described herein.
• FIG. 5 depicts a cross-section view of the example vacuum pouch fromFIG. 4 in a deflated configuration, according to one or more aspects described herein.
• FIG. 6 depicts the various components of the example pouch, according to one or more aspects described herein.
• FIG. 7 depicts a view of the example vacuum pouch fixedly attached to a garment, according to one or more aspects described herein.
• FIGS. 8 and 9 depict views of an example system for compressing the vacuum pouch, according to one or more aspects described herein.
• FIGS. 10 and 11 depict pictures of another example system for compressing the vacuum pouch, according to one or more aspects described herein.
• Further, it is to be understood that the drawings may represent the scale of different components of one single embodiment; however, the disclosed embodiments are not limited to that particular scale.
DETAILED DESCRIPTION
• Aspects of this disclosure relate to a pouch or pocket as a container that may be used to securely hold objects (e.g., cell phone, keys, wallet, etc.) during athletic activity, such as when working out (e.g., running). The pouch may be a standalone item or integrally formed as part of other items, such as an article of clothing, a belt (e.g. a fanny pack-type belt), a bag, etc. The pouch or pocket may be desired to hold the object to be stored in place within the pouch or pocket. The pouch or pocket may be desired to provide some cushioning or impact force attenuation to protect the object being held within the pouch or pocket. Additionally, the pouch or pocket may be attached to a garment, such as running clothes. The pouch or pocket may be desired to keep the object from bouncing around while running or otherwise working out and moving. The pouch includes an outer envelope sealable by a closure and a one-way valve. One or more foam layers are included inside the pouch. After the object is placed in the pouch, the closure is closed, and the air within the pouch is expelled via the one-way valve by compressing the foam layers from the outside. The compressed foam holds the object in place within the pouch.
• In the following description of various example structures according to the invention, reference is made to the accompanying drawings, which form a part hereof, and in which are shown by way of illustration various example devices, systems, and environments in which aspects of the invention may be practiced. It is to be understood that other specific arrangements of parts, example devices, systems, and environments may be utilized and structural and functional modifications may be made without departing from the scope of the present invention. Also, while the terms “top,” “bottom,” “front,” “back,” “side,” “rear,” and the like may be used in this specification to describe various example features and elements of the invention, these terms are used herein as a matter of convenience, e.g., based on the example orientations shown in the figures or the orientation during typical use. Nothing in this specification should be construed as requiring a specific three dimensional orientation of structures in order to fall within the scope of this invention. Also, the reader is advised that the attached drawings are not necessarily drawn to scale.
• In the following description of the various embodiments, reference is made to the accompanying drawings, which form a part hereof, and in which is shown, by way of illustration, various embodiments in which aspects of the disclosure may be practiced. It is to be understood that other embodiments may be utilized and structural and functional modifications may be made without departing from the scope and spirit of the present disclosure
• FIG. 1-3 depicts anexample vacuum pouch100 according to one or more aspects described herein. Specifically,FIG. 1 depicts a top view of thepouch100.FIG. 2 depicts a cross-section view of thepouch100 in an inflated configuration.FIG. 3 depicts a cross-section view of thepouch100 in a deflated configuration.
• As illustrated inFIGS. 1-3, aspects of this invention are directed towards apouch100 that includes an outerflexible envelope110, one ormore foam components120 located within the outerflexible envelope110, an openable/closableresealable opening130, and a one-way valve140. Any one-way valve140 may be utilized as the one-way valve140, such as for example duck-bill valves (such as Vernay Duckbill Check Valves, valves of the types shown in U.S. Pat. No. 6,936,130 (incorporated by reference), etc.). The outerflexible envelope110 may define aninterior chamber112 that has a firstmajor surface114 and a secondmajor surface116 opposite the firstmajor surface114. Theresealable opening130 may be located on an exterior or the outerflexible envelope110. Theresealable opening130 may provide an opening for anobject10 to be inserted into theinterior chamber112 and may allow theobject10 to be inserted inside theinterior chamber112. Theresealable opening130 may sealed many different times and is not a one-time sealed closure. Theresealable opening130 may include many different closure systems known and used in the art, such as a zippered closure, a pressure-resealable closure, or a sliding device closure.
• The one ormore foam components120 may be, for example, an open cell foam. Thefoam components120 may provide afirst foam layer122 adjacent the firstmajor surface114 and asecond foam layer124 adjacent the secondmajor surface116. Thefoam components120 may be an open cell foam material with high rebound characteristics. Additionally thefoam components120 may include a plurality of lasered holes for zonal compression.
• Thepouch100, theouter envelope110, and thefoam components120 may be a rectangular shape as illustrated inFIGS. 1-3. Additionally, thepouch100, theouter envelope110, and thefoam components120 may be other shapes without departing from this invention. For example, thepouch100, theouter envelope110, and thefoam components120 may be a square shape, circular shape, or oval shape. Additionally, thepouch100, theouter envelope110, and thefoam components120 may be a 5-sided, 6-sided, or 8-sided polygon without departing from this invention. Thepouch100, theouter envelope110, and thefoam components120 may be irregularly shaped also. In another embodiment without departing from the invention, thepouch100, theouter envelope110, and thefoam components120 may be different shapes as part of the same system, for example, thepouch100 and theouter envelope110 may be rectangular-shaped with thefoam components120 that are oval-shaped.
• In use, anobject10 to be stored in thepouch100 can be inserted through theresealable opening130 and between thefoam components120 as illustrated inFIG. 2.FIG. 2 illustrates thepouch100 in the inflated configuration. Once theobject10 is inserted into thepouch100, theresealable opening130 is closed using the closure system, which seals theouter envelope110. Then, the user can compress thefoam components120 from the outside of thepouch100, for example, by using his/her hand to compress thefoam components120. This compression of thefoam components120 expels the air from theinterior chamber112 of theouter envelope110 via the one-way valve140 that is in communication with theinterior chamber112. Because thevalve140 is a one-way valve, air can leave theinterior chamber112 by thevalve140 but not get back in. This compresses thepouch100 to the deflated configuration as illustrated inFIG. 3.
• FIGS. 4 and 5 illustrate asecond pouch assembly200 according to one or more aspects described herein. Specifically,FIG. 4 depicts a cross-section view of thepouch200 in an inflated configuration.FIG. 5 depicts a cross-section view of thepouch200 in a deflated configuration. Thepouch200 illustrated inFIGS. 4 and 5 is the same as thepouch100 as described above and illustrated inFIGS. 2 and 3, except that thepouch200 includes aplate250 located between the firstmajor surface114 of theouter envelope110 and thefirst foam layer122. Theplate250 may be a semi-rigid plate that serves as a moderator to more evenly spread the compression force over the area of thefoam components120. Theplate250 may also help to expel the air and more evenly compress thefoam components120 against theobject10 being held.
• FIG. 6 illustrates the different components of thepouch100,200. As illustrated inFIG. 6, the components of thepouch100,200 may include thefoam components120, which include both thefirst foam layer122 and thesecond foam layer124. The components of thepouch100,200 also may include the “hotmelt up” component which defines a layer of theflexible envelope110 with the one-way valve140. The components of thepouch100,200 also may include the “Skin” component which defines a layer of theflexible envelope110 with theresealable opening130. The components of thepouch100,200 also may include the “hotmelt” component which defines a rim orboundary118 of hot melt that may be applied to theflexible envelope110 to secure thepouch100 to another object, such as agarment12. The “wax paper”component102 may be utilized between the facing interior edges of the foam layers122,124, for example to help theobject10 slide into and out of the interior pocket more easily and to prevent the foam layers122,124 from sticking together.
• In some embodiments, thepouch100,200 may be attached to (or attachable to) agarment12, such as a shirt, vest, shorts, pants, socks, hat, etc. Thepouch100,200 may be fixedly attached to thegarment12, for example, by a hot melt adhesive, or by a plurality of sewn seams, etc.FIG. 7 illustrates apouch100,200 attached to agarment12. Thegarment12 may include agarment base material14, such as a one or more fabric materials or fabric components. Thepouch100 may be releasably or fixedly attached to thegarment base material14. Further, thepouch100 may include a mechanism for releasably and permanently connecting thepouch100 to another object, such as agarment12. The mechanism may include a hook-and-loop fastener, hot melt adhesive, adhesive with release paper covering, snaps, button, magnetic connectors, etc.
• In another embodiment of this invention relates to a system for compression theflexible envelope110, for example, if thepouch100,200 is mounted on a back-side of thegarment12. A back-side mount is useful for apouch100,200, for example, for running or other workouts, because it generally keeps thepouch100,200 out of the way of the running and other movements required while working out. However, if thepouch100,200 is mounted on the back of thegarment12, theobject10 may need to be inserted into thepouch100,200 before thegarment12 is donned (as the wearer may not be able to reach theresealable opening130 at his/her back). While the foam layers122,124 could be compressed before thegarment12 is donned, this may cause undesired non-conformance of the shape of thepouch100,200 with respect to the wearer's body, which may make thepouch100,200 uncomfortable.
• Therefore, in accordance with some aspects of this invention, theobject10 may be inserted into a back-side-mountedpouch100,200 before thegarment12 is donned and thepouch100,200 may be sealed by theresealable closure130. But, the foam layers122,124 may not be compressed until after thepouch100,200 is donned. Thepouch100,200 may be engaged with/include structures to enable tofoam layers122,124 to be compressed by the wearer after thegarment12 is donned.FIGS. 8 and 9 illustrate anexample compression structure160 to compress the foam layers122,124.
• As illustrated inFIGS. 8 and 9, a set ofstraps162 may wrap around theflexible envelope110. A finger trap strap configuration of thestraps162 may allow for the squeezing of thepouch100 on both sides of thepouch100. The finger trap strap configuration may be similar to a cylindrical, helically wound braid, usually the common biaxial braid, wherein pulling thestraps162 lengthens and narrows the strap configuration, thereby tightening around thepouch100. The more thestraps162 are pulled, the more theenvelop110 shrinks and thestraps162 tightens around theenvelope110 and thepouch100. By pulling on afree end164 of the straps162 (which the user can do from the front of the garment12), the foam layers122,124 can be compressed, thereby expelling the air from theinterior chamber112 of theouter envelope110 via the one-way valve140. This compression action can also help allow theflexible envelope110 of thepouch100,200 to better conform to the shape of the wearer's back. Additionally, theplate250 as described inFIGS. 4 and 5 may help with this embodiment, for example, to help more evenly compress the foam layers122,124 within theflexible envelope110. Other types of structure may be utilized to create the compression force on the foam layers122,124 from a pulling action, without departing from this invention.
• In another embodiment,FIGS. 10 and 11 illustrate acompression structure160 to compress the foam layers122,124 that includes a set of lacing orcables162 that can be used to pull at wider and more rigid set ofbands166 that when compressed against thefoam components120, expels the air from theinterior chamber112 of theouter envelope110 via the one-way valve140. The set ofbands166 may wrap partially or fully around or cover theflexible envelope110. The set ofbands166 may not be part of the pulling structure but rather coupled to the set of lacing orcables162. By pulling on afree end164 of the straps162 (which the user can do from the front of the garment12), the set ofbands166 are tightened around theouter envelope110 and the foam layers122,124 can be compressed, thereby expelling the air from theinterior chamber112 of theouter envelope110 via the one-way valve140. This compression action can also help allow theflexible envelope110 of thepouch100,200 to better conform to the shape of the wearer's back. Additionally, theplate250 as described inFIGS. 4 and 5 may help with this embodiment, for example, to help more evenly compress the foam layers122,124 within theflexible envelope110.
• Theflexible envelope110 or “skin” may be made from a material that provides some desired level of stretchability, particularly forpouches100,200 that are attached to agarment12 and are located in close proximity to the wearer's body. The stretchable skin may allow thepouch100,200 to better “move” with the body as necessary, for example, to increase comfort and lessen undesirable impact on performance. Additionally, the stretchable skin of theflexible envelope110 may be seal-proof, such that water or air cannot get inside thepouch100,200 and its stretch/skin-like properties without tearing or having any elongation. One suitable skin material is a lined-thermoplastic polyurethane (TPU) film available from San Fang under the name Desol Lining. Other materials that provide stretchability may be utilized without departing from this invention.
• Thepouch100,200 may be utilized for various applications other than attaching to apparel or garments. For example, as another option, thispouch system100,200 may be used as a containment for a protective plate in sports apparel. One specific example may be used with a soccer sock for containing a shin guard. A pouch-system100,200 of this type could be incorporated into a soccer sock. The shin guard could be placed into thepouch100,200 and thepouch100,200 could be closed and compressed. This pouch-system100,200 might help to keep the shin guard in place during use and play. The shin guard could then be removed from thepouch100,200 as needed. Other applications of this pouch system may be utilized without departing from this invention.
• Thepouch100,200 has the advantage of that the compression of theflexible envelope110, the foam layers122,124, and the relative vacuum pressure formed within theinterior chamber112 generally hold theobject10 to be stored in place. When thepouch100,200 is attached to a garment12 (e.g., running clothes), thepouch100,200 can help keep theobject10 from bouncing around while running or otherwise working out/moving. Although compressed, the foam layers122,124 can also provide some cushioning/impact force attenuation to protect theobject10 being held, such as a cell phone.
• The present disclosure is disclosed above and in the accompanying drawings with reference to a variety of examples. The purpose served by the disclosure, however, is to provide examples of the various features and concepts related to the disclosure, not to limit the scope of the invention. One skilled in the relevant art will recognize that numerous variations and modifications may be made to the examples described above without departing from the scope of the present disclosure.

Claims (20)

We claim:

1. A pouch for securely holding objects during athletic activity, the pouch comprising:

an outer envelope that defines an interior chamber that has a first major surface and a second major surface;

one or more foam components located within the outer envelope, the one or more foam components including a first foam layer adjacent to the first major surface of the outer envelope and a second foam layer adjacent to the second major surface of the outer envelope;

an opening located on an exterior of the outer envelope providing for an object to be inserted into the interior chamber; and

a one-way valve in communication with the interior chamber,

wherein the opening is a resealable opening, wherein once the object is inserted into the pouch, the resealable opening is closed and sealed and the one or more foam components are compressed, wherein the compression of the one or more foam components expels air from the interior chamber of the outer envelope via the one-way valve.

2. The pouch fromclaim 1, wherein the one or more foam components is an open cell foam with a high rebound characteristic.

3. The pouch fromclaim 1, wherein the one or more foam components includes a plurality of lasered holes for zonal compression.

4. The pouch fromclaim 1, further including a plate located between the outer envelope and the one or more foam components, the plate serving as a moderator to more evenly spread a compression force over the foam components.

5. The pouch fromclaim 1, wherein the resealable opening includes a closure configured to be sealed and the closure includes one of the following closures: a zippered closure, a pressure-resealable closure, or a sliding device closure.

6. The pouch fromclaim 1, further including a set of straps that wrap around the outer envelope, wherein when pulling on a free end of the set of straps, the outer envelope compresses and air is expelled from the interior chamber of the outer envelope via the one-way valve.

7. The pouch fromclaim 1, further including a set of cables coupled to a plurality of rigid bands that wrap around the outer envelope, wherein when pulling on a free end of the set of cables, the rigid bands tighten around the outer envelope compressing the outer envelope and air is expelled from the interior chamber of the outer envelope via the one-way valve.

8. The pouch fromclaim 1, further including a hot melt component which defines a rim of hot melt that is applied to a perimeter of the outer envelope to fixedly attach the pouch to a garment.

9. A garment comprising:

a garment base material that includes one or more fabric components; and

a pouch releasably or fixedly attached to the garment base material, the pouch for securely holding objects during athletic activity, the pouch including:

an outer envelope that defines an interior chamber that has a first major surface and a second major surface;

one or more foam components located within the outer envelope, the one or more foam components including a first foam layer adjacent to the first major surface of the outer envelope and a second foam layer adjacent to the second major surface of the outer envelope;

an opening located on an exterior of the outer envelope providing for an object to be inserted into the interior chamber; and

a one-way valve in communication with the interior chamber,

wherein the opening is a resealable opening, wherein once the object is inserted into the pouch, the resealable opening is closed and sealed and the one or more foam components are compressed, wherein the compression of the one or more foam components expels the air from the interior chamber of the outer envelope via the one-way valve.

10. The garment fromclaim 9, wherein the pouch is releasably attached to the garment base material and includes a mechanism for releaseably and permanently connecting the pouch to the garment base material.

11. The garment fromclaim 9, wherein the pouch is fixedly attached to the garment base material and includes a hot melt component which defines a rim of hot melt that is applied to a perimeter of the outer envelope to fixedly attach the pouch to the garment.

12. The garment fromclaim 9, wherein the pouch is fixedly attached to the garment base material via a plurality of sewn seams onto the garment.

13. The garment fromclaim 9, wherein the one or more foam components is an open cell foam with a high rebound characteristic.

14. The garment fromclaim 9, wherein the one or more foam components includes a plurality of lasered holes for zonal compression.

15. The pouch fromclaim 9, further including a plate located between the outer envelope and the one or more foam components, the plate serving as a moderator to more evenly spread a compression force over the foam components.

16. A pouch for securely holding objects during athletic activity, the pouch comprising:

an outer envelope that defines an interior chamber that has a first major surface and a second major surface;

one or more foam components located within the outer envelope, the one or more foam components including a first foam layer adjacent to the first major surface of the outer envelope and a second foam layer adjacent to the second major surface of the outer envelope;

an opening located on an exterior of the outer envelope providing for an object to be inserted into the interior chamber; and

a one-way valve in communication with the interior chamber,

wherein the opening is a resealable opening, wherein once the object is inserted into the pouch, the resealable opening is closed and sealed and the one or more foam components are compressed, wherein the compression of the one or more foam components expels the air from the interior chamber of the outer envelope via the one-way valve.

17. The pouch fromclaim 16, further including a hot melt component which defines a rim of hot melt that is applied to a perimeter of the outer envelope to fixedly attach the pouch to a garment.

18. The pouch fromclaim 16, wherein the resealable opening includes a closure configured to be sealed and the closure includes one of the following closures: a zippered closure, a pressure-resealable closure, or a sliding device closure.

19. The pouch fromclaim 16, wherein the one or more foam components includes a plurality of lasered holes for zonal compression.

20. The pouch fromclaim 16, further including a plate located between the outer envelope and the one or more foam components, the plate serving as a moderator to more evenly spread a compression force over the foam components.

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